WO2020157527A1 - Structural solution for the fastening of insect screens - Google Patents

Abstract

Structural solution for the fastening of insect screens, which are provided with appropriately shaped fastening strips along their borders, and can be attached to the fastening strips located on the reveals and wings of roof window arrangements, such as panoramic window, tilting window and roof balcony in order to make sure, that no insects could get into the rooms of the attic, and at the same time the structural arrangement makes sure that the roof windows keep their functions that allow for the user to lean out of the window, or step out to an eventual roof balcony. Structural solution for the fastening of insect screens, which is established with a fastening strip attached to the window reveal of a roof panoramic window, and an insect screen having a fastening strip where the two fastening strips are fastened to each other. It is characterised by that, the edges „A" and „D" are equal and parallel and are arranged symmetrically relative to the axis t1, and the edges „C", „F", „B", „E" are equal, while the edges having length values „C" and „F" and the edges having length values „B" and „E" are aligned with an angle δ1 relative to each other respectively, furthermore the edges having length values „A" and „C", the edges having length values „A" and „B", the edges having length values „F" and „D", and the edges having length values „D" and „F" are aligned at an angle ε1 relative to each other respectively, thus creating a hexagonal insect screen (10) with the help of fastening strips (35) mounted on its borders, which are connected to the fastening strips (36) mounted on the parts towards the indoor location (70) of the window reveal (2) and the window wing of the panoramic window (1), so that the insect screen (10) has an edge having length „A" which via the fastening strip (35) of the insect screen (10) is fastened to the fastening strip (36) mounted on the internal surface (6) having width „A" of the window reveal (2), has an edge having length „C", which via the fastening strip (35) of the insect screen (10) is fastened to the fastening strip (36) mounted on the internal surface (4) having width „C" of the window reveal (2) has an edge having length „B", which via the fastening strip (35) of the insect screen (10) is fastened to the fastening strip (36) mounted on the internal surface (5) having width,,B" of the window reveal, has an edge having length „D", which via the fastening strip (35) of the insect screen (10) is fastened to the fastening strip (36) mounted on the front surface (9) having width „D" of the window wing (3) has an edge having length „F", which via the fastening strip (35) of the insect screen (10) is fastened to the fastening strip (36) mounted on the longitudinal front surface (7) having width „F" of the window wing (3) has an edge having length „E", which via the fastening strip (35) of the insect screen (10) is fastened to the fastening strip (36) mounted on the longitudinal front surface (8) having width „E" of the window wing (3).

Description

Structural solution for the fastening of insect screens

Structural solution for the fastening of insect screens, which are provided with appropriately shaped fastening strips along their borders, and can be attached to the fastening strips located on the reveals and wings of roof window arrangements, such as panoramic window, tilting window and roof balcony in order to make sure, that no insects could get into the rooms of the attic, and at the same time the structural arrangement makes sure that the roof windows keep their functions that allow for the user to lean out of the window, or step out to an eventual roof balcony.

The creation of living spaces in attics is popular. Roof windows having various arrangements are used to let sunlight in and to allow ventilation when living spaces are established in attics. The most frequently used kind of roof window is the panoramic window, the wing of which can be opened in the direction of the outdoor location while rotating around a hinge located at the upper edge of the reveal. Another kind of window is the tilting window, the wing of which can be rotated around a hinge located at the middle of the reveal, so that half of the wing is in the indoor location and the other half is in the outdoor location when opened. These arrangements could allow for the users to extend their heads or part of their bodies outside the reveal to the outdoor location.

The roof balcony arrangement became popular recently, which has a lower wing and an upper wing, where the lower wing can rotate around a hinge at the lower edge of the reveal, while the upper wing can rotate around a hinge at the upper edge of the reveal in the direction of the outdoor location, and lateral safety railing also opens at each side simultaneously with the opening of the wings. In case of this latter solution it is possible for the user to“step out” from the attic to the outdoor location. In case of the above listed solutions the manufacturers do not establish the possibility of providing insect screens to the windows. Once installed, the commercially available insect screens do not allow for the user to extend their heads or part of their bodies to the outdoor location beyond the reveal, and do not allow stepping out of the attic space to an eventual roof balcony.

According to the state of art the German utility model DE 202015003046 U1 makes known a solution for insect screen applicable for roof windows. The utility model consists of two U profiles and a bracket, and an openable frame, where the frame is provided with an insect screen. The insertion of the frame into the open roof window prevents the insects from getting into the internal space.

The Korean patent KR20120057297 describes a solution for the fixing of insect screens to the roof windows of greenhouses.

The drawback of the solutions described above is that they do not allow a simple and fast mounting of insect screens on panoramic windows, on tilt-and-turn windows and on roof balcony arrangements.

In case of the solution according to the invention our aim was to create a structural solution that allows the mounting of insect screen on panoramic roof window, on tilt- and-turn window and on roof balcony arrangements in a manner, so that it prevents the insects from getting into the space of the attic, and at the same time the structural arrangement makes sure that the roof windows keep their functions that allow for the user to lean out of the window, or step out to an eventual roof balcony.

During the development of the solution according to the invention we recognised that if one side of fastening strips consisting of counterparts joined in an openable manner are mounted on the reveal and frames of roof windows, and fastening strips mounted in a known manner on the borders of appropriately shaped insect screens are attached to it, then the set out goal can be achieved. The invention is a structural solution for the fastening of insect screens, which is established with a fastening strip attached to the window reveal of a roof panoramic window, and an insect screen having a fastening strip where the two fastening strips are fastened to each other. It is characterised by that the edges„A” and„D” are equal and parallel and are arranged symmetrically relative to the axis tl, and the edges„C”,„F”, „B”,„E” are equal, while the edges having length values„C” and„F” and the edges having length values„B” and„E” are aligned with an angle 51 relative to each other respectively, furthermore the edges having length values„A” and„C”, the edges having length values„A” and„B”, the edges having length values„F” and„D”, and the edges having length values„D” and„F” are aligned at an angle eΐ relative to each other respectively, thus creating a hexagonal insect screen with the help of fastening strips mounted on its borders, which are connected to the fastening strips mounted on the parts towards the indoor location of the window reveal and the window wing of the panoramic window, so that the insect screen has an edge having length„A” which via the fastening strip of the insect screen is fastened to the fastening strip mounted on the internal surface having width„A” of the window reveal, has an edge having length„C”, which via the fastening strip of the insect screen is fastened to the fastening strip mounted on the internal surface having width„C” of the window reveal has an edge having length„B”, which via the fastening strip of the insect screen is fastened to the fastening strip mounted on the internal surface having width„B” of the window reveal, has an edge having length„D'’, which via the fastening strip of the insect screen is fastened to the fastening strip mounted on the front surface having width„D” of the window wing has an edge having length„F”, which via the fastening strip of the insect screen is fastened to the fastening strip mounted on the longitudinal front surface having width„F” of the window wing has an edge having length„E”, which via the fastening strip of the insect screen is fastened to the fastening strip mounted on the longitudinal front surface having width„E” of the window wing.

In a preferred embodiment of the solution according to the invention the internal angles of the insect screen are 51 = 40°- 50°, preferably 45°, eΐ = 155°-162°, preferably 158°. The invention is structural solution for the fastening of insect screens, which is established from a fastening strip attached to the window reveal of a tilting roof window, and an insect screen having a fastening strip where the two fastening strips are fastened to each other. It is characterised by that the edges„Q” and„M” are equal in length and parallel to each other and are arranged symmetrically relative to the axis t2, and the edges„P” and„R” are equal in length, and the edges„N” and„0” are equal in length, while the edges having length values„P” and„N” and the edges having length values„R” and„0”, are aligned at an angle 52 relative to each other respectively, the edges having length values„Q” and„P” and the edges having length values„Q” and „R”, are aligned at an angle e2 relative to each other respectively, and the edges having length values„M” and„N” and the edges having length values„M and„0”, are aligned at an angle lΐ relative to each other respectively, thus forming a hexagonal insect screen, symmetrically arranged relative to axis t3, with equally long and parallel edges „G” and„J”, and with equally long and parallel edges„H” and„I”, and with with equally long and parallel edges edges„K” and„J”, and edges having length values„H” and„K” and edges having length values„I” and„L” are aligned at an angle 53 relative to each other respectively, while the edges having length values„G” and„H” and edges having length values„G” and„I” are aligned at an angle e3 relative to each other respectively, and edges having length values„J” and„K”, and edges having length values„J” and„L”, which are aligned at an angle l2 relative to each other respectively establish a hexagonal insect screen , on the borders of which the fastening strips are mounted for fastening to the fastening strips, which are mounted on the side towards the indoor location of the window reveal and of the window wing of the tilting window, so that the edge having length„Q” of the insect screen is connected with the help of fastening strip mounted on the border of the insect screen to the fastening strip mounted on the front surface having width„Q” of the window wing, and it has an edge with length„M”, which is fastened with the help of a fastening strip mounted on the borders of the insect screen to the fastening strip mounted on the internal upper surface having length„M” of the window reveal, has an edge with length„P”, which is fastened with the help of a fastening strip mounted on the borders of the insect screen to the fastening strip mounted on the longitudinal front surface having length„P” of the window wing, has an edge with length„N”, which is fastened with the help of a fastening strip mounted on the borders of the insect screen to the fastening strip mounted on the internal upper longitudinal surface having length„N” of the window reveal, has an edge with length„R”, which is fastened with the help of a fastening strip mounted on the borders of the insect screen to the fastening strip mounted on the longitudinal front surface having length„R” of the window wing, has an edge with length„0”, which is fastened with the help of a fastening strip mounted on the borders of the insect screen to the fastening strip mounted on the longitudinal front surface having length„0” of the window reveal, while the insect screen has an edge with length„G”, which is fastened with the help of its fastening strip mounted on the borders of the insect screen to the fastening strip mounted on the internal lower surface having length„G” of the window reveal, has an edge with length„J”, which is fastened with the help of its fastening strip mounted on the borders of the insect screen to the fastening strip mounted on the front surface having length„J” of the window wing, has an edge with length„H”, which is fastened with the help of its fastening strip mounted on the borders of the insect screen to the fastening strip mounted on the internal lower longitudinal surface having length „H” of the window reveal, has an edge with length„K”, which is fastened with the help of its fastening strip mounted on the borders of the insect screen to the fastening strip mounted on the longitudinal front surface having length„K” of the window wing, has an edge with length„I”, which is fastened with the help of its fastening strip mounted on the borders of the insect screen to the fastening strip mounted on the internal lower longitudinal surface having length„I” of the window reveal, has an edge with length „L”, which is fastened with the help of its fastening strip mounted on the borders of the insect screen to the fastening strip mounted on the longitudinal front surface having length„L” of the window wing.

In a preferred embodiment of the solution according to the invention the internal angles of the insect screen are 52 = 48°-58°, preferably 53°, e2 = I65°-175°, preferably 170° and l1= 132°- 142°, preferably 137°. In another preferred embodiment of the solution according to the invention the internal angles of the insect screen the internal angles of the insect screen are 53 = 45°-55°, preferably 50°, S3 = 158°- 168°, preferably 163° and 12 142°- 152°, preferably 147°.

The invention is structural solution for the fastening of insect screens, which is established from a fastening strip attached to the window reveal of a roof balcony, and an insect screen having a fastening strip where such fastening strips are fastened to each other. It is characterised by that the edges„S” and„Z” are equal in length and parallel and are arranged symmetrically relative to the axis t3, and the edges„T” and„U” are equal in length, and the edges„V” and„W” are equal in length, and edges having length values„T” and„V” and edges having length values„U” and„W” are aligned at an angle 54 relative to each other respectively, while the edges having length values„S” and„T” and edges having length values„S” and„U” are aligned at an angle &4 relative to each other respectively, and edges having length values„Z” and„V”, and edges having length values„Z” and„W”, which are aligned at an angle l3 relative to each other respectively and establish a hexagonal insect screen, on the borders of which the fastening strips are mounted for fastening to the fastening strips, which are mounted on the side towards the indoor location of the window reveal and of the upper wing of the roof balcony, so that the edge with length„S” of the insect screen is fastened with the help of fastening strip mounted on the border of insect screen to the fastening strip mounted on the internal surface having width„S” of the window reveal, and it the edge with length„T” is fastened with the help of a fastening strip mounted on the borders of the insect screen to the fastening strip mounted on the internal longitudinal surface having length„T” of the window reveal, the edge with length„U” is fastened with the help of a fastening strip mounted on the borders of the insect screen to the fastening strip mounted on the internal longitudinal surface having length„U” of the window reveal, the edge with length„V” is fastened with the help of a fastening strip mounted on the borders of the insect screen to the fastening strip mounted on the longitudinal front surface having length„V” of the upper wing, the edge with length„Z” is fastened with the help of a fastening strip mounted on the borders of the insect screen to the fastening strip mounted on the front surface having length„Z” of the upper wing, the edge having length„W” is fastened with the help of a fastening strip mounted on the borders of the insect screen to the fastening strip mounted on the longitudinal front surface having length„W” of the upper wing.

In a preferred embodiment of the solution according to the invention the internal angles of the insect screen are d4 = 40°- 50°, preferably 45°, e4 = 125°-135°, preferably 130° and l3= 180°- 190°, preferably 185°.

In further preferred embodiment of the solution according to the invention the fastening strips are coupled to each other, by which an openable joint can be created.

In further preferred embodiment of the solution according to the invention the fastenings strips are two counterparts of a hook-and-loop fastener, where the hook type fastening strip is mounted on the window reveals and on the window wings, while the loop type fastening strip is mounted on the borders of the insect screen in a known manner.

In further preferred embodiment of the solution according to the invention the fastenings strips are two counterparts of a magnetic fastener, where the fastening strip with one pole is mounted on the window reveals and on the window wings, while the fastening strip with the opposite pole is mounted on the borders of the insect screen in a known manner.

Fig. 1 shows a possible embodiment of fixing the fastening strip to the panoramic roof window.

Fig. 2 shows the panoramic window introduced in Fig. 1 with the insect screen mounted on it.

Fig. 3 shows a possible embodiment of the insect screen fastened to the panoramic window introduced in Fig. 1 in developed view.

Fig. 4 shows the enlarged view of the node detail I introduced in Fig. 3.

Fig. 5 shows the enlarged view of the node detail II introduced in Fig. 3.

Fig. 6 shows the enlarged view of the node detail III introduced in Fig. 3. Fig. 7 shows a possible embodiment of fixing the fastening strip to the tilting roof window.

Fig. 8 shows the tilting window introduced in Fig. 7 together with the mounted insect screen.

Fig. 9 shows a possible embodiment of the insect screen in developed view, which is mounted on the indoor part of the tilting window introduced in Fig. 7.

Fig. 10 shows the enlarged view of the node detail IV introduced in Fig. 9.

Fig. 11 shows the enlarged view of the node detail VI introduced in Fig. 9.

Fig. 12 shows a possible embodiment of the insect screen in developed view, which is mounted on the outdoor part of the tilting window introduced in Fig. 7.

Fig. 13 shows the enlarged view of the node detail VII introduced in Fig. 12.

Fig. 14 shows the enlarged view of the node detail VIII introduced in Fig. 12.

Figure 15 shows the enlarged node detail IX introduced in Fig. 12.

Fig. 16 shows the way the fastening strip is fixed to the roof balcony.

Fig. 17 shows the roof balcony introduced in Fig. 16 together with the insect screen mounted on it.

Fig. 18 shows the developed view of the insect screen fixed on the roof balcony introduced in Fig. 16.

Fig. 19 shows the enlarged view of the node detail X introduced in Fig. 18.

Fig. 20 shows the enlarged view of the node part XI introduced in Fig. 18

Fig. 21 shows the enlarged view of the node part XII introduced in Fig. 18.

Fig. 1 shows a possible embodiment of fixing the fastening strip to the panoramic roof window. The figure shows panoramic window I with its window frame 2 together with its window wing 3, which is fully open in this case, i.e. at an angle a = 45°.

The figure shows window leave 2 with fastening strips 36 which are fixed in a known manner on the border of the indoor location 70 with the internal surface 6 having length „A”, with the internal longitudinal surface 5 having length„B”, and with the internal longitudinal surface having length„C”. The figure further shows window wing 3 of panoramic window 1 and fastening strips 36 which are fixed in a known manner on the outside border of longitudinal front surface 7 having length„F”, and of the longitudinal front surface 8 having length„E”, and of the front surface 9 having length„D”.

Fig. 2 shows the panoramic window introduced in Fig. 1 with the insect screen mounted on it. The figure shows the panoramic window 1 with its window frame 2, which is in a maximally open state, i.e. with its window wing 3 being in open condition by a = 45°, and with the insect screen 10 mounted on the panoramic window 1 with the help of its fastening strips 35.

Fig. 3 shows a possible embodiment of the insect screen fastened to the panoramic window introduced in Fig. 1 in developed view. The figure shows the insect screen 10 having a hexagonal base, which is formed symmetrically relative to the axis tl . The edges of insect screen 10 with length„A” and„D” are parallel to each other and have the same length, i.e. A = D.

The edges having length values„C”, „F”,„B”,„E” have the same length, i.e.„C”= „F”=„B”⁼„E”_{> w}hile the edges having length values„C” and„F” are inclined with an angle 51 relative to each other, and the edges having length values„B” and„E” are inclined relative to each other also with an angle 51. The figure furthermore shows that the edges having length values„A” and„C”, the edges having length values„A” and „B”, the edges having length values„F” and„D”, and the edges having length values „D" and„E” are inclined with an angle eΐ relative to each other respectively. 51 = 40°- 50°, preferably 45°, while eΐ = 155°- 162°, preferably 158°.

The figure shows the insect screen 10 with the fastening strips 35 fixed to the appropriate sides of the insect screen 10. The figure further shows fastening strip sections 51, 52, 53 and 54.

Fig. 4 shows the enlarged view of the node detail I introduced in Fig. 3. The figure shows the insect screen 10 with the view of node detail I enlarged. The figure shows insect screen 10 together with fastening strips 35 as fixed in known manner to the border of the insect screen 10.

The figure furthermore shows the end of the fixing strip section 51 is created with an angle g = 90°, where due to the symmetrical arrangement the other end of the fastening strip section 51 is formed in this way too. The end of the fastening strip 52 is created with an angle b= 45°.

The selection of the above angles ensures that the external edges of the fastening strips 35 are accurately fitted without any gap when the insect screen 10 is fixed to the window frame 2, thus no insect can get into the indoor location 70.

Due to the symmetrical arrangement of the insect screen 10 the ends of the fastening strips 35 are formed in similar manner at the point where the edges having length values „A” and„C” meet.

Fig. 5 shows the enlarged view of the node detail II introduced in Fig. 3. The figure shows the insect screen 10 with the view of node detail II enlarged. The figure shows the insect screen 10 together with the fastening strips 35 as mounted in known manner on the border of the insect screen 10.

The figure shows that the end of the fastening strip 52 is created with an angle b= 45°. The end of the fastening strip 53 is created with an angle b= 45°.

The selection of the above angles ensures that the external edges of the fastening strips 35 are accurately fitted without any gap when the insect screen 10 is fixed to the window reveal 2 and to the window wing 3, thus no insect can get into the indoor location 70.

Due to the symmetrical arrangement of the insect screen 10 the ends of the fastening strips 35 are formed in similar manner at the point where the edges having length values „F” and„C” meet.

Fig. 6 shows the enlarged view of the node detail III introduced in Fig. 3. The figure shows the insect screen 10 with the view of node detail III enlarged. The figure shows the insect screen 10 together with the fastening strips 35 mounted in a known manner on the border of the insect screen 10.

The figure shows that the end of the fastening strip 53 is created with an angle b= 45°. The end of the fastening strip 54 is created with an angle b= 45°.

The selection of the above angles ensures that the external edges of the fastening strips 35 are accurately fitted without any gap when the insect screen 10 is fixed to the window wing 3, thus no insect can get into the indoor location 70.

Due to the symmetrical arrangement of the insect screen 10 the ends of the fastening strips 35 are formed in similar manner at the point where the edges having length values „D” and„F” meet.

The fixing of the insect screen 10 to the panoramic window 1 is done by first fixing the fastening strips 36 to the window reveal 2 and to the window wing 3 according to Fig. 1. Following this, the fastening strip 35 which is attached to the border of the insect screen 10 along the edge of insect screen 10 having length„A”, is to be fixed to the fastening strip 36, which is attached to the internal surface 6 of the window reveal 2 having a width„A”. The fastening strip 35, which is mounted on the border of the insect screen 10 along the edge of insect screen 10 having length„C”, is to be fixed to the fastening strip 36, which is mounted on the internal surface 4 of the window reveal 2 having a length„C”, and the fastening strip 35, which is mounted on the border of the insect screen 10 along the edge of insect screen 10 having length„B”, is to be fixed to the fastening strip 36, which is mounted on the internal surface 5 of the window reveal 2 having a length„B”.

Furthermore, the fastening strip 35, which is mounted on the border of the insect screen 10 along the edge of insect screen 10 having length„D”, is to be fixed to the fastening strip 36, which is mounted on the front surface 9 of the window wing 3 having a length „D”. The fastening strip 35, which is mounted on the border of the insect screen 10 along the edge of insect screen 10 having length„F”, is to be fixed to the fastening strip 36, which is mounted on the longitudinal front surface 7 of the window wing 3 having a length„F”, while the fastening strip 35, which is mounted on the border of the insect screen 10 along the edge of insect screen 10 having length„E”, is to be fixed to the fastening strip 36, which is mounted on the longitudinal front surface 8 of the window wing 3 having a length„E”.

In the case of the above defined embodiment during the closing of panoramic window 1, if the material of the insect screen 10 is flexible then it can be left on the window reveal 2 and on the window wing 3 of the panoramic window 1 in the manner described above, while the insect screen 10 is hung into the indoor location 70 when the panoramic window 1 is closed. If the material of the insect screen 10 is rigid, then it is convenient to remove the insect screen 10 with a single movement before closing the panoramic window 1.

If the panoramic window 1 is not opened fully, i.e. a < 45°, then the insect screen 10 is not in deployed condition as shown in Fig.2, instead it is in a loose condition while slightly hanging into the outdoor location 80.

Fig. 7 shows a possible embodiment of fixing the fastening strip to the tilting roof window. The figure shows the tilting window 11 and its window reveal 12 together with its window wing 13, which is fully open in this case, i.e. a= 45°.

The figure shows the window reveal 12 with fastening strips 36 fixed in a known manner on the sides bordering the indoor location 70 on the internal surface 16 having width„G”, on the internal longitudinal surface 14 having length„F1”, and on the internal longitudinal surface 15 having length„I”.

The figure furthermore shows the window reveal 12 with fastening strips 36 fixed in a known manner on the sides bordering the indoor location 70 on the internal upper surface 40 having width„M”, at the internal upper longitudinal surface 38 having length „N”, and at the internal upper longitudinal surface 39 having length„0”, The figure furthermore shows the window wing 13 of the tilting window 11 with the fastening strips 36 fixed in a known manner on the external border of the front surface 37 having width„J” and on the front surface 41 having width„Q”, and of the longitudinal front surface 17 having width„K+P” and of the longitudinal front surface 18 having width

„L+R”. Fig. 8 shows the tilting window introduced in Fig. 7 together with the mounted insect screen. The figure shows the tilting window 11 with its window reveal 12, together with the window wing 13, which in this case is fully open, i.e. to an angle a=45°, as well as the insect screen 19 and the insect screen 20, which are mounted with the help of fastening strips 35 on the tilting window 11.

Fig. 9 shows a possible embodiment of the insect screen in developed view, which is mounted on the indoor part of the tilting window introduced in Fig. 7. The figure shows the insect screen 20, which is symmetric relative to axis t2 and has a hexagonal shape. The edges of insect screen 20 having length values„Q” and„M” are parallel to each other. The edges having length values„P” and„R” are equal in length, i.e.„P”=„R”, and the edges having length values„N” and„0” are also equal in length , i.e.„N”=„0”.

The edges having length values„P” and„N” are aligned with an angle 82 relative to each other, while the edges having length values„R” and„0” are also aligned with an angle 82 relative to each other. The figure shows that the tips of the insect screen 20 formed by the above defined edges are cut off, so that their installation would become easier.

The figure also shows that the edges having length values„Q” and„P”, as well as the edges having length values„Q” and„R” are aligned with an angle e2 relative to each other. The edges having length values„0” and„M”, as well as the edges having length values„M” and„N” are aligned with an angle lΐ relative to each other.

The above defined angle values are chosen to be 82 = 48°-58°, preferably 53°, while e2 = 165°- 175°, preferably 170°, and l1= 132°- 142° preferably 137 °.

The figure shows insect screen 10 with the fastening strips 35 mounted in a known manner to the appropriate borders of the insect screen 10. The figure furthermore shows the fastening strip sections 55, 56, 57 and 58.

Fig. 10 shows the enlarged view of the node detail IV introduced in Fig. 9. The figure shows the insect screen 20 with the view of node detail IV enlarged. The figure shows the insect screen 20 and the fastening strips 35 mounted in a known manner to the borders of the insect screen 20.

The figure shows that the end of the fastening strip section 55 is formed with an angle b= 45°. Due to the symmetrical arrangement the other end of the fastening strip section 55 is formed in this way too. The end of the fastening strip section 56 is formed with an angle b= 45°.

The selection of the above angles ensures that the external edges of the fastening strips 35 are accurately fitted without any gap when the insect screen 20 is fixed to the window wing 13, thus no insect can get into the indoor location 70.

Due to the symmetrical arrangement of the insect screen 20 the ends of the fastening strips 35 are formed in similar manner at the point where the edges having length values „Q” and„P” meet.

Fig. 11 shows the enlarged view of the node detail VI introduced in Fig. 9. The figure shows the insect screen 20 with the view node detail VI enlarged. The figure shows the insect screen 20 and the fastening strip 35 mounted in a known manner on the borders of the insect screen 20.

The figure shows that the end of the fastening strip section 57 is formed with an angle g = 90°. The end of the fastening strip section 58 is formed with an angle g = 90°.

The selection of the above angles ensures that the external edges of the fastening strips 35 are accurately fitted without any gap when the insect screen 20 is fixed to the window frame 2, thus no insect can get into the indoor location 70.

Due to the symmetrical arrangement of the insect screen 20 the ends of the fastening strips 35 are formed in similar manner at the point where the edges having length values „M” and„N” meet.

Fig. 12 shows a possible embodiment of the insect screen in developed view, which is mounted on the outdoor part of the tilting window introduced in Fig. 7. The figure shows the insects screen 19, which is symmetric relative to axis t3 and has a hexagonal shape. The edges of the insects screen 19 having length values„G” and„J” are parallel to each other and are equal in length, i.e. G=J.

The edges having length values„I” and„H” are equal in length, i.e.„G=„H”, and the edges having length values„L” and„K” are also equal in length, i.e.„L”=„K”.

The edges having length values„I” and„L” are aligned with an angle 53 relative to each other, while the edges having length values„H” and„K” are aligned also with an angle 53 relative to each other.

The figure shows furthermore that the edges having length values„G” and ,,G, and the edges having length values„G” and„H” are aligned at an angle 83 relative to each other. The edges having length values„L” and„J” and the edges having length values „K” and„J” are aligned at an angle l2 relative to each other.

The above defined angle values are chosen to be 53 = 45°-55°, preferably 50°, while 83 = 158°- 168°, preferably 163°, and l2= 142°- 152°, preferably 147 °.

The figure shows the fastening strips 35 mounted in a known manner on the appropriate borders of the insect screen 19. The figure furthermore shows the fastening strip sections 59, 60, 61 and 62.

Fig. 13 shows the enlarged view of the node detail VII introduced in Fig. 12. The figure shows the insect screen 19 with the view of node detail VII enlarged. The figure shows the insect screen 19 together with the fastening strips 35 mounted in a known manner on the border of the insect screen 19.

The figure shows that the end of fastening strip section 59 is formed with an angle g = 90°. Due to the symmetrical arrangement the other end of the fastening strip section 59 is formed the same way. The end of fastening strip section 60 is formed with an angle g = 90°.

The selection of the above angles ensures that the external edges of the fastening strips 35 are accurately fitted without any gap when the insect screen 19 is fixed to the window reveal 12, thus no insect can get into the indoor location 70. Due to the symmetrical arrangement of the insect screen 19 the ends of the fastening strips 35 are formed in similar manner at the point where the edges having length values „G” and„I” meet.

Fig. 14 shows the enlarged view of the node detail VIII introduced in Fig. 12. The figure shows he insect screen 19 with the view of node detail VIII enlarged. The figure shows the insects screen 19 as well as the fastening strips 35 as attached with a known method to the border of the insect screen 19.

The figure shows that the end of the fastening strip 60 is formed with an angle b= 45°. The end of the fastening strip section 61 is formed with an angle b= 45°.

The selection of the above angles ensures that the external edges of the fastening strips 35 are accurately fitted without any gap when the insect screen 19 is fixed to the window reveal 12 and to the window wing 13, thus no insect can get into the indoor location 70.

Due to the symmetric arrangement of the insect screen 19 the ends of the fastening strips 35 are formed in a similar manner at the point where the edges having length values I” and„L” meet.

Figure 15 shows the enlarged node detail IX introduced in Fig. 12. The figure shows the insect screen 19 with the view of node detail IX enlarged. The figure shows the insect screen 19, together with the fastening strips 35 mounted in a known manner on the insect screen 19.

The figure shows that the end of the fastening strip section 61 is formed with an angle b= 45°. The end of the fastening strip section 62 is formed with an angle b= 45°.

The selection of the above angles ensures that the external edges of the fastening strips 35 are accurately fitted without any gap when the insect screen 19 is fixed to the window reveal 12 and to the window wing 13, thus no insect can get into the indoor location 70. Due to the symmetrical arrangement of the insect screen 19 the ends of the fastening strips 35 are formed in similar manner at the point where the edges having length values „J” and ,,L” meet.

For fixing the insect screen 20 to the panoramic window 11 first the fastening strips 36 are to be attached to the window reveal 12 and to the window wing 13 according to Fig. 7. Then the fastening strip 35 mounted on the border of the insect screen 20 along the edge having length„Q” of the insect screen 20 is attached to the fastening strip 36 mounted on the front surface 41 having width„Q” of the window wing 13.

In the next step the fastening strip 35 mounted on the border of the insect screen 20 along the edge having length„M” of the insect screen 20 is attached to the fastening strip 36 mounted on the internal upper surface 40 having width„M” of the window reveal 12, and the fastening strip 35 mounted on the border of the insect screen 20 along the edge having length„P” of the insect screen 20 is attached to the fastening strip 36 mounted on the longitudinal front surface 17 having length„P” of the window wing 13.

Furthermore the fastening strip 35 mounted on the border of the insect screen 20 along the edge having length„N” of the insect screen 20 is attached to the fastening strip 36 mounted on the internal upper longitudinal surface 38 having width„N” of the window reveal 12. The fastening strip 35 mounted on the border of the insect screen 20 along the edge having length„R” of the insect screen 20 is attached to the fastening strip 36 mounted on the longitudinal front surface 18 having length ,,R” of the window wing 13, and the fastening strip 35 mounted on the border of the insect screen 20 along the edge having length„0” of the insect screen 20 is attached to the fastening strip 36 mounted on the longitudinal front surface 18 having length„0” of the window reveal 12.

For fixing the insect screen 19 on the panoramic window 11 the fastening strip 35 mounted on the border of the insect screen 19 along the edge having length„G” of the insect screen 19 is attached to the fastening strip 36 mounted on the internal lower surface 16 having length„G” of the window reveal 12. The fastening strip 35 mounted on the border of the insect screen 19 along the edge having length„J of the insect screen 19 is attached to the fastening strip 36 mounted on the front surface 37 having length „J” of the window wing 13, and the fastening strip 35 mounted on the border of the insect screen 19 along the edge having length„H” of the insect screen 19 is attached to the fastening strip 36 mounted on the internal lower longitudinal surface 14 having length„H” of the window reveal 12.

Furthermore, the fastening strip 35 mounted on the border of the insect screen 19 along the edge having length„K” of the insect screen 19 is attached to the fastening strip 36 mounted on the longitudinal front surface 17 having length„K” of the window wing 13. The fastening strip 35 mounted on the border of the insect screen 19 along the edge having length„I” of the insect screen 19 is attached to the fastening strip 36 mounted on the internal lower surface 15 having length„I” of the window reveal 12, the fastening strip 35 mounted on the border of the insect screen 19 along the edge having length„L” of the insect screen 19 is attached to the fastening strip 36 mounted on the longitudinal front surface 18 having length„L” of the window wing 13.

In the case of the above defined embodiment during the closing of the tilting window 11 if the materials of the insect screens 19, 20 are flexible, then the insect screens 19, 20 will remain mounted in the manner described above on the window reveal 12 and on the window wing 13 of the tilting window 11, and the insects screens 19, 20 will hang into the indoor location 70.

If the material of the insect screens 19, 20 is rigid, then it is convenient to remove the insect screen 19, 20 with a single movement before closing the tilting window 11.

If the tilting window 11 is not opened fully, i.e. a < 45°, then the insect screens 19, 20 are not in deployed condition as shown in Fig. 8, but they are in a loose condition while slightly hanging into the indoor location 70 and into the outdoor location 80.

Fig. 16 shows the way the fastening strip is fixed to the roof balcony. The figure shows the roof balcony 21 together with its window reveal 22, as well as its upper wing 24, which is opened upwards in this case to the maximum, i.e. to a = 45°, and its lower wing 23, which is opened also to the maximum 40°. The figure shows the window reveal 22 with fastening strips 36 mounted in a known manner on the sides towards the indoor location 70 on the internal surface 27 having width„S”, the internal longitudinal surface 25 having length„T”, and the internal longitudinal surface 26 having length„U”.

The figure shows the upper wing 24 with the fastening strips 36 mounted in a known manner on the external borders of the longitudinal front surface 28 having length„V”, of the longitudinal front surface 28 having length„W”, and of the front surface 30 having length„Z”.

Fig. 17 shows the roof balcony introduced in Fig. 16 together with the insect screen mounted on it. The figure shows the roof balcony 21 and its window reveal 22, together with its fully opened upper wing 24 and with its fully opened lower wing 23, and with insect screen 33 which is fixed to the roof balcony 21 with the help of its fastening strips 35.

Fig. 18 shows the developed view of the insect screen fixed on the roof balcony introduced in Fig. 16. The figure shows the hexagonal insect screen 33, which is arranged symmetrically relative to the axis t4 and has a concave shape. The edges having length values„S” and„Z” of the insect screen 33 are parallel relative to each other. The edges having length values„T” and„U” are equal in length, i.e.„T”=„U”. The edges having length values„V” and ,,W” are equal in length, i.e.„V”=„W”. The edges having length dimensions„T” and„V” are aligned with an angle 64 relative to each other, while the edges having length values„U” and„W” are aligned also with an angle 64 relative to each other. The figure furthermore shows that the edges having length values„S” and„T”, and the edges having length values„S” and„U” are aligned with an angle e4 relative to each other respectively. The edges having length dimensions„V” and„Z” are aligned with an angle l3 relative to each other, while the edges having length values„Z” and„W” are aligned also with an angle l3 relative to each other. The above defined angle values are chosen to be 64 = 40°- 50°, preferably 45°, while e4 = 125°-135°, preferably 130° and l3= 180°- 190°, preferably 185°. The figure shows the fastening strips 35 mounted in a known manner on the appropriate borders of the insect screen 33. The fastening strip sections 63, 64, 65 and 66 can also be seen.

Fig. 19 shows the enlarged view of the node detail X introduced in Fig. 18. The enlarged view of the node detail X of insect screen 33 can be seen in the figure. The figure shows the insect screen 33 with the view of node detail X enlarged. The figure shows the insect screen 33 together with the fastening strips 35 mounted in a known manner on the border of the insect screen 33.

The figure further shows that the end of fastening strip section 63 is formed with an angle g = 90°. Due to the symmetrical arrangement the other end of the fastening strip section 63 is formed the same way. The end of fastening strip section 64 is formed with an angle g = 90°.

The selection of the above angles ensures that the external edges of the fastening strips 35 are accurately fitted without any gap when the insect screen 33 is fixed to the window reveal 22, thus no insect can get into the indoor location 70.

Due to the symmetric arrangement of the insect screen 33 the ends of the fastening strips 35 are formed in a similar manner where the edges having length values„S” and „T” meet.

Fig. 20 shows the enlarged view of the node part XI introduced in Fig. 18. The figure shows the insect screen 33 with the view of node detail XI enlarged. The figure shows the insect screen 33, together with the fastening strips 35 mounted in a known manner on the border of the insect screen 33.

The figure shows that the end of the fastening strip section 64 is formed with an angle b= 45°. The end of the fastening strip section 65 is formed with an angle b= 45°.

The selection of the above angles ensures that the external edges of the fastening strips 35 are accurately fitted without any gap when the insect screen 33 is fixed to the window reveal 22 and to the upper wing 24, thus no insect can get into the indoor location 70. Due to the symmetric arrangement of the insect screen 33 the ends of the fastening strips 35 are formed in a similar manner at the point where the edges having length values„T” and„V” meet.

Fig. 21 shows the enlarged view of the node part XII introduced in Fig. 18. The figure shows the insect screen 33 with the view of node detail XII enlarged. The figure shows the insect screen 33, together with the fastening strips 35 mounted in a known manner on the border of the insect screen 33.

The figure shows that the end of the fastening strip section 65 is formed with an angle b= 45°. The end of the fastening strip section 66 is formed with an angle b= 45°.

The selection of the above angles ensures that the external edges of the fastening strips 35 are accurately fitted without any gap when the insect screen 33 is fixed to the upper wing 24, thus no insect can get into the indoor location 70.

Due to the symmetric arrangement of the insect screen 33 the ends of the fastening strips 35 are formed in a similar manner at the point where the edges having length values„V” and„Z” meet.

For fixing the insect screen 33 to the roof balcony 21 it is necessary first to fix the fastening strips 36 to the window reveal 22 and to the window wing 24 according to Fig. 17. Then the fastening strip 35, which is attached to the border of the insect screen 33 along the edge having length„S” of insect screen 33, is to be fixed to the fastening strip 36, which is attached to the internal surface 27 having a width„S” of the window reveal 22.

Furthermore, the fastening strip 35, which is attached to the border of the insect screen 33 along the edge having length„T” of insect screen 33, is to be fixed to the fastening strip 36, which is attached to the internal longitudinal surface 25 having length„T” of the window reveal 22, and the fastening strip 35, which is attached to the border of the insect screen 33 along the edge having length„U”, is to be fixed to the fastening strip 36, which is attached to the internal longitudinal surface 26 having a length„U” of the window reveal 22. Furthermore, the fastening strip 35, which is attached to the border of the insect screen 33 along the edge having length„V”, is to be fixed to the fastening strip 36, which is attached to the longitudinal front surface 28 having a length„V” of the upper wing 24. The fastening strip 35, which is mounted on the side of the insect screen 33 along its edge having length„Z”, is fixed to the fastening strip 36 mounted on the front surface 30 having a length„Z” of the upper wing 24.

The fastening strip 35, which is mounted on the border of the insect screen 33 along the edge having length„W”, is to be fixed to the fastening strip 36, which is attached to the longitudinal front surface 29 having a length„W” of the upper wing 24.

In the case of the above defined embodiment if the material of the insect screen 33 is flexible, then during the closing of the roof window 21 the insect screen 33 will remain mounted in the manner described above on the window reveal 22 and on the upper wing 23, and the insects screens 33 will hang into the indoor location 70. If the material of the insect screen 33 is rigid, then it is convenient to remove the insect screen 33 with a single movement before closing the roof window 21.

According to the invention the fastening strips 35, 36 are interconnected strips, using which it is possible to establish openable joints. In this way the fastening strips 35, 36 may be the two interconnecting strips of a hook-and-loop fastener, when the fastening strips 36 with hooks are preferably placed on the window reveals and the window wings, while the fastening strips 35 with loops are attached to the edges of the insect screen.

The fastening strips 35, 36 may be the two interconnecting strips of a magnetic fastener, when the fastening strips 36 with one pole are preferably placed on the window reveals and the window wings, while the fastening strips 35 with opposite pole are attached to the edges of the insect screen.

The fastening strips 35, 36 could be arranged as snap-in solutions similar to the zip locks used for plastic pouches. In this case the recipient profiles are to be mounted in know manner preferably on the window reveals and window wings. The counterparts of the zip locks are to be mounted on the borders of the insect screen.

The fixing of fastening strips 36 on the window reveals and on the window, wings could be made with adhering or with other known method. The fixing of fastening strips 35 on the insect screens 10, 19, 20, 33 could be made with adhering, sewing or with other known method.

The fixing of the fastening strips 36 can be made most conveniently when the window is closed, the ends of which are formed with 90°and/or 45° fitting angles depending on their locations. The fastening strips 36 are to be fitted to the interior side of the window frame or window

The material of the 10,19,20,33 insects screen may be plastic, metal, fabric, etc.

The advantage of the arrangement according to the invention is that insects cannot get through the roof windows, tilting windows and roof balconies into the attic interior, and at the same time the structural form makes sure that the roof windows retain their function of allowing leaning out through them or walk out in case of roof balcony.

Claims

1. Structural solution for the fastening of insect screens, which is established with a fastening strip attached to the window reveal of a roof panoramic window, and an insect screen having a fastening strip where the two fastening strips are fastened to each other, characterised by that, the edges„A” and„D” are equal and parallel and are arranged symmetrically relative to the axis tl, and the edges„C”,„F”,„B”,„E” are equal, while the edges having length values„C” and„F” and the edges having length values„B” and„E” are aligned with an angle dΐ relative to each other respectively, furthermore the edges having length values „A” and„C”, the edges having length values„A” and„B”, the edges having length values„F” and„D”, and the edges having length values„D” and„F” are aligned at an angle eΐ relative to each other respectively, thus creating a hexagonal insect screen (10) with the help of fastening strips (35) mounted on its borders, which are connected to the fastening strips (36) mounted on the parts towards the indoor location (70) of the window reveal (2) and the window wing of the panoramic window (1), so that the insect screen (10) has an edge having length„A” which via the fastening strip (35) of the insect screen (10) is fastened to the fastening strip (36) mounted on the internal surface (6) having width„A” of the window reveal (2), has an edge having length„C”, which via the fastening strip (35) of the insect screen (10) is fastened to the fastening strip (36) mounted on the internal surface (4) having width„C” of the window reveal (2) has an edge having length„B”, which via the fastening strip (35) of the insect screen (10) is fastened to the fastening strip (36) mounted on the internal surface (5) having width„B” of the window reveal, has an edge having length„D”, which via the fastening strip (35) of the insect screen (10) is fastened to the fastening strip (36) mounted on the front surface (9) having width„D” of the window wing (3) has an edge having length„F”, which via the fastening strip (35) of the insect screen (10) is fastened to the fastening strip (36) mounted on the longitudinal front surface (7) having width„F” of the window wing (3) has an edge having length„E”, which via the fastening strip (35) of the insect screen (10) is fastened to the fastening strip (36) mounted on the longitudinal front surface (8) having width„E” of the window wing (3).

2. Structural solution according to claim 1 , characterised by that, the internal angles of the insect screen are 51 = 40°- 50°, preferably 45°, eΐ = 155°-162°, preferably 158°.

3. Structural solution for the fastening of insect screens, which is established from a fastening strip attached to the window reveal of a tilting roof window, and an insect screen having a fastening strip where the two fastening strips are fastened to each other, characterised by that the edges„Q” and„M” are equal in length and parallel to each other and are arranged symmetrically relative to the axis t2, and the edges„P” and„R” are equal in length, and the edges„N” and„0” are equal in length, while the edges having length values„P” and„N” and the edges having length values„R” and„0”, are aligned at an angle 52 relative to each other respectively, the edges having length values„Q” and„P” and the edges having length values„Q” and„R”, are aligned at an angle e2 relative to each other respectively, and the edges having length values„M” and„N” and the edges having length values„M and„0”, are aligned at an angle lΐ relative to each other respectively, thus forming a hexagonal insect screen (20), symmetrically arranged relative to axis t3, with equally long and parallel edges„G” and„J”, and with equally long and parallel edges„H” and„I”, and with with equally long and parallel edges edges„K” and„J”, and edges having length values„H” and„K” and edges having length values„I” and„L” are aligned at an angle 53 relative to each other respectively, while the edges having length values„G” and„E1” and edges having length values„G'’ and„I” are aligned at an angle e3 relative to each other respectively, and edges having length values ,J” and„K”, and edges having length values„J” and„L”, which are aligned at an angle l2 relative to each other respectively establish a hexagonal insect screen (19), on the borders of which the fastening strips (35) are mounted for fastening to the fastening strips (36), which are mounted on the side towards the indoor location (70) of the window reveal (22) and of the window wing (23) of the tilting window (11), so that the edge having length„Q” of the insect screen (20) is connected with the help of fastening strip (35) mounted on the border of the insect screen (20) to the fastening strip (36) mounted on the front surface (41) having width„Q” of the window wing (13), and it has an edge with length„M”, which is fastened with the help of a fastening strip (35) mounted on the borders of the insect screen (20) to the fastening strip (36) mounted on the internal upper surface (40) having length„M” of the window reveal (12), has an edge with length„P”, which is fastened with the help of a fastening strip (35) mounted on the borders of the insect screen (20) to the fastening strip (36) mounted on the longitudinal front surface (17) having length„P” of the window wing (13), has an edge with length„N”, which is fastened with the help of a fastening strip (35) mounted on the borders of the insect screen (20) to the fastening strip (36) mounted on the internal upper longitudinal surface (38) having length„N” of the window reveal (12), has an edge with length„R”, which is fastened with the help of a fastening strip (35) mounted on the borders of the insect screen (20) to the fastening strip (36) mounted on the longitudinal front surface (18) having length„R” of the window wing (13), has an edge with length„0”, which is fastened with the help of a fastening strip (35) mounted on the borders of the insect screen (20) to the fastening strip (36) mounted on the longitudinal front surface (18) having length„0” of the window reveal (12), while the insect screen (19) has an edge with length„G”, which is fastened with the help of its fastening strip (35) mounted on the borders of the insect screen (19) to the fastening strip (36) mounted on the internal lower surface (16) having length„G” of the window reveal (12), has an edge with length„J”, which is fastened with the help of its fastening strip (35) mounted on the borders of the insect screen (19) to the fastening strip (36) mounted on the front surface (37) having length„J” of the window wing (13), has an edge with length„H”, which is fastened with the help of its fastening strip (35) mounted on the borders of the insect screen (19) to the fastening strip (36) mounted on the internal lower longitudinal surface (14) having length„H” of the window reveal (12), has an edge with length„K”, which is fastened with the help of its fastening strip (35) mounted on the borders of the insect screen (19) to the fastening strip (36) mounted on the longitudinal front surface (17) having length„K” of the window wing (13), has an edge with length„I”, which is fastened with the help of its fastening strip (35) mounted on the borders of the insect screen (19) to the fastening strip (36) mounted on the internal lower longitudinal surface (15) having length„I” of the window reveal (12), has an edge with length„L”, which is fastened with the help of its fastening strip (35) mounted on the borders of the insect screen (19) to the fastening strip (36) mounted on the longitudinal front surface (18) having length„L” of the window wing (13),

4. Structural solution according to claim 3, characterised by that the internal angles of the insect screen (20) are 52 = 48°-58°, preferably 53°, e2 = 165°-175°, preferably 170° and l1= 132°- 142°, preferably 137°.

5. Structural solution according to claim 3, characterised by that the internal angles of the insect screen (19) are 53 = 45°-55°, preferably 50°, e3 = 158°- 168°, preferably 163° and l2= 142°- 152°, preferably 147°.

6. Structural solution for the fastening of insect screens, which is established from a fastening strip attached to the window reveal of a roof balcony, and an insect screen having a fastening strip where such fastening strips are fastened to each other characterised by that the edges„S” and„Z” are equal in length and parallel and are arranged symmetrically relative to the axis t3, and the edges„T” and„U” are equal in length, and the edges„V” and„W” are equal in length, and edges having length values„T” and„V” and edges having length values„U” and„W” are aligned at an angle 54 relative to each other respectively, while the edges having length values„S” and„T” and edges having length values„S” and„U” are aligned at an angle e4 relative to each other respectively, and edges having length values„Z” and„V”, and edges having length values„Z” and„W”, which are aligned at an angle l3 relative to each other respectively and establish a hexagonal insect screen (33), on the borders of which the fastening strips (35) are mounted for fastening to the fastening strips (36), which are mounted on the side towards the indoor location of the window reveal (22) and of the upper wing (24) of the roof balcony (21), so that the edge with length„S” of the insect screen (33) is fastened with the help of fastening strip (35) mounted on the border of insect screen (33) to the fastening strip (36) mounted on the internal surface (27) having width„S” of the window reveal (22), and it the edge with length„T” is fastened with the help of a fastening strip (35) mounted on the borders of the insect screen (33) to the fastening strip (36) mounted on the internal longitudinal surface (25) having length„T” of the window reveal (22), the edge with length„U” is fastened with the help of a fastening strip (35) mounted on the borders of the insect screen (33) to the fastening strip (36) mounted on the internal longitudinal surface (26) having length„U” of the window reveal (22), the edge with length„V” is fastened with the help of a fastening strip (35) mounted on the borders of the insect screen (33) to the fastening strip (36) mounted on the longitudinal front surface (28) having length„V” of the upper wing (24), the edge with length„Z” is fastened with the help of a fastening strip (35) mounted on the borders of the insect screen (33) to the fastening strip (36) mounted on the front surface (30) having length„Z” of the upper wing (24), the edge having length„W” is fastened with the help of a fastening strip (35) mounted on the borders of the insect screen (33) to the fastening strip (36) mounted on the longitudinal front surface (29) having length „W” of the upper wing (24).

7. Structural solution according to claim 6, characterised by that the internal angles of the insect screen (33) are 54 = 40°- 50°, preferably 45°, £4 = 125°-135°, preferably 130° and l3= 180°- 190°, preferably 185°.

8. Structural solution according to any of the claims 1 -7, characterised by that the fastening strips (35, 36) are coupled to each other, by which an openable joint can be created.

9. Structural solution according to any of the claims 1-8, characterised by that the fastenings strips (35, 36) are two counterparts of a hook-and-loop fastener, where the hook type fastening strip (36) is mounted on the window reveals and on the window wings, while the loop type fastening strip (35) is mounted on the borders of the insect screen (10, 19, 20, 33) in a known manner.

10. Structural solution according to any of the claims 1-9, characterised by that the fastenings strips (35, 36) are two counterparts of a magnetic fastener, where the fastening strip (36) with one pole is mounted on the window reveals and on the window wings, while the fastening strip (35) with the opposite pole is mounted on the borders of the insect screen (10, 19, 20, 33) in a known manner.